Juan Jian scite author profile

Ni3S2 nanosheets doped with tin (Sn) grown on nickel foam (Sn–Ni3S2/NF) through a facile hydrothermal process were found to be superior water-splitting electrocatalysts. As for overall water splitting (OWS), when the current density is 10 mA cm–2, the required voltage is only 1.46 V. Meanwhile, it exhibits a large current density property and long-time stability (>60 h current–time tests) for both the hydrogen evolution reaction (HER) and the oxygen evolution reaction (OER). In order to reach the current densities of 100 and 1000 mA cm–2, Sn–Ni3S2/NF needs overpotentials of 0.17 and 0.57 V for HER, and 0.27 and 0.58 V for OER, respectively. The water-splitting property of Sn–Ni3S2/NF is much better than that of pure Ni3S2/NF or even 20 wt % Pt/C/NF and RuO2/NF. Furthermore, Sn–Ni3S2/NF showed a higher turnover frequency at different potentials, with ∼100% Faraday efficiency for both O2 and H2. The improved activity of Sn–Ni3S2/NF activity for water-splitting is attributed to the doping of Sn, which enhanced the intrinsic activity of Sn–Ni3S2/NF for OWS. This article not only provides a new efficient and stable catalyst for OWS, but also proposes an interface design principle for NF-based high-performance water-splitting materials.

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Metal-ionic-conductor potassium ferrite nanocrystals with intrinsic superhydrophilic surfaces for electrocatalytic water splitting at ultrahigh current densities

Jian

Chen

Zeng

et al. 2021

J. Mater. Chem. A

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Enhanced electrocatalytic hydrogen evolution performance of MoS 2 ultrathin nanosheets via Sn doping

Jian

et al. 2017

Applied Catalysis A: General

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Electrochemical dopamine sensor based on superionic conducting potassium ferrite

Sun

Zhang

et al. 2020

Biosensors and Bioelectronics

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Juan Jian

Sn–Ni₃S₂ Ultrathin Nanosheets as Efficient Bifunctional Water-Splitting Catalysts with a Large Current Density and Low Overpotential

Metal-ionic-conductor potassium ferrite nanocrystals with intrinsic superhydrophilic surfaces for electrocatalytic water splitting at ultrahigh current densities

Enhanced electrocatalytic hydrogen evolution performance of MoS 2 ultrathin nanosheets via Sn doping

Electrochemical dopamine sensor based on superionic conducting potassium ferrite

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Resources

About

Juan Jian

Sn–Ni3S2 Ultrathin Nanosheets as Efficient Bifunctional Water-Splitting Catalysts with a Large Current Density and Low Overpotential

Metal-ionic-conductor potassium ferrite nanocrystals with intrinsic superhydrophilic surfaces for electrocatalytic water splitting at ultrahigh current densities

Enhanced electrocatalytic hydrogen evolution performance of MoS 2 ultrathin nanosheets via Sn doping

Electrochemical dopamine sensor based on superionic conducting potassium ferrite

Contact Info

Product

Resources

About

Sn–Ni₃S₂ Ultrathin Nanosheets as Efficient Bifunctional Water-Splitting Catalysts with a Large Current Density and Low Overpotential